Topic 4: Genetics
4.1Chromosomes, genes, alleles and mutations
- What are the two main substances that make up chromosomes?
- Match the definitions for gene, allele and genome.
Gene ______
Allele ______
Genome ______
a.)one specific form of a gene, differing from other alleles by one or a few bases only and occupying the same gene locus as other alleles of the gene.
b.)the whole of the genetic information of an organism.
c.)a heritable factor that controls a specific characteristic.
- Define gene mutation.
- Explain the consequence of a base substitution mutation in relation to the processes of transcription and translation, using the example of sickle-cell anemia.
GAG has mutated to ______
Because of this mutation, glutamic acid is replaced by ______
How does this cause sickle cell anemia?
Where a correlation is found, a causal link may or may not be present. The frequency of the sickle-cell allele is correlated with the prevalence of malaria in many parts of the world. In this case, there is a clear causal link.
There has clearly been natural selection in favour of the sickle-cell allele in malarial areas, despite it causing severe anemia in the homozygous condition. Natural selection has led to particular frequencies of the sickle-cell and the normal hemoglobin alleles, to balance the twin risks of anemia and malaria.
4.2 Meiosis
- Meiosis is a reduction division of a diploid nucleus to form four ______nuclei.
- Define homologous chromosomes
- Outline the process of meiosis, including pairing of homologous chromosomes and crossing over, followed by two divisions, which results in four haploid cells.
Label and explain each
stage of Meiosis I.
Label and explain each
stage of Meiosis II.
Define crossing over:
What stage does crossing over occur?______
- Explain hownon-disjunction can lead to changes in chromosome number, illustrated by reference to Down syndrome (trisomy 21)
- State that, in karyotyping, chromosomes are arranged in pairs according to their ______and ______.
- State that karyotyping is performed using cells collected by chorionic ______sampling or amnio______, for pre-natal diagnosis of chromosome abnormalities.
- Analyse a human karyotype to determine gender and whether non-disjunction has occurred.
Karyotyping can be done by using enlarged photographs of chromosomes. Which trisomy disorder is shown in this karyotype?______
4.3 Theoretical genetics
1.)Match the following definitions.Write the letter of the definition in the box.
Genotype / a.)an allele that has the same effect on the phenotype whether it is present in the homozygous or heterozygous state.Phenotype / b.)an allele that only has an effect on the phenotype when present in the homozygous state.
Dominant allele / c.)an individual that has one copy of a recessive allele that causes a genetic disease in individuals that are homozygous for this allele.
Recessive allele / d.)having two different alleles of a gene.
Codominant alleles / e.)having two identical alleles of a gene.
Locus / f.)pairs of alleles that both affect the phenotype when present in a heterozygote. (The terms incomplete and partial dominance are no longer used.)
Homozygous / g.)testing a suspected heterozygote by crossing it with a known homozygous recessive. (The term backcross is no longer used.)
Heterozygous / h.)the alleles of an organism.
Carrier / i.) the characteristics of an organism.
Test cross / j.)the particular position on homologous chromosomes of a gene.
2.)Determine the genotypes/phenotypes of the offspring of a monohybrid cross using a Punnett grid.
3.)State that some genes have more than two alleles (multiple alleles).
4.)Describe ABO blood groups as an example of codominance and multiple alleles.
5.)Explain how the sex chromosomes control gender by referring to the inheritance of X and Y chromosomes in humans. (Explain the picture below.)
6.)Give examples of some genes that are present on the X chromosome and absent from the shorter Y chromosome in humans.
7.)Define sex linkage.
8.)Describe the inheritance of colour blindness and hemophilia as examples of sex linkage
9.) State that a human female can be homozygous or heterozygous with respect to sex-linked genes.
10.)Explain that female carriers are heterozygous for X-linked recessive alleles.
11.)Predict the genotypic and phenotypic ratios of offspring of monohybrid crosses.
12.)Deduce the genotypes and phenotypes of individuals in pedigree charts.
4.4Genetic engineering and biotechnology
- Outline the use of polymerase chain reaction (PCR) to copy and amplify minute quantities of DNA.
a. DNA is ______
b. Primers are annealed to the start end of the required section of DNA
c. DNA ______uses complementary base pairing to make more copies.
- ExplainDNA gel electrophoresis.
- DNA is cut with ______enzymes.
- The DNA samples are loaded into an agarose gel.
- An ______current is run through the agarose gel.
- The DNA fragments are separated by ______and ______.
- The smaller fragments travel ______.
- State the uses for DNA gel electrophoresis.
- Describe the application of DNA profiling to determine paternity and also in forensic investigations.
- Analyse DNA profiles to draw conclusions about paternity or forensic investigations.
- Outline three outcomes of the sequencing of the complete human genome.
Outcome 1 / Outcome 2 / Outcome 3
- When genes are transferred between species, why is the amino acid sequence of polypeptides translated from them unchanged?
- Outline a basic technique used for gene transfer involving plasmids, a host cell (bacterium, yeast or other cell), restriction enzymes (endonucleases) and DNA ligase. Explain the picture below.
- State two examples of the current uses of genetically modified crops or animals.
- Discuss the potential benefits and possible harmful effects of one example of genetic modification.
Example / Possible benefits / Possible harmful effects
- Define clone.
- Outline a technique for cloning using differentiated animal cells.
- Discuss the ethical issues of therapeutic cloning in humans.